CN111729739A - Superfine pseudo-ginseng powder production process based on automatic feeding grinder - Google Patents

Abstract

The invention discloses a superfine pseudo-ginseng powder production process based on an automatic feeding grinder, which comprises the steps of selecting, cleaning and selecting pseudo-ginseng raw medicinal materials to be selected, and removing non-medicinal parts and skin impurities; cleaning, removing soil or impurities attached to the medicinal materials with drinking water, and cleaning until water is clear; drying and sterilizing, namely drying and sterilizing the clean medicinal material pseudo-ginseng at 75 ℃ until the water content is less than or equal to 10.0 percent, sterilizing for 20min and the ozone amount is 12 PPM; micronizing, namely micronizing the dried and sterilized panax notoginseng medicinal material, wherein the sorting frequency is 32HZ, and the yield range is 100.00%; wherein: the superfine grinding adopts a grinding device which is a device combining grinding and grinding, firstly introduces dried and sterilized pseudo-ginseng medicinal materials into a grinding mechanism, introduces ground pseudo-ginseng powder into the grinding mechanism through a feeding pipe for secondary grinding, and leads the ground pseudo-ginseng powder out. The invention adopts a mode of combining crushing and smashing, thereby enhancing the smashing efficiency and further improving the product quality.

Description

Superfine pseudo-ginseng powder production process based on automatic feeding grinder

Technical Field

The invention relates to the technical field of sustainable utilization and ecological protection of traditional Chinese medicine resources, in particular to a production process of superfine pseudo-ginseng powder based on an automatic feeding grinder.

Background

Pseudo-ginseng, produced mainly in Yunnan Wenshan, has the main effects of removing blood stasis, stopping bleeding, relieving swelling and alleviating pain. The chemical components of the panax notoginseng mainly comprise saponins and flavonoids, and various high-sapogenins separated from the panax notoginseng velvet root total soap mainly comprise panaxadiol and panaxatriol saponins, the content of the total saponins is higher than 10%, and the panax notoginseng velvet root total soap also contains beta-steroid, polypeptidin, polysaccharide and more than 20 trace elements such as aluminum, iron, rubidium, strontium and the like. Expanding blood vessels and reducing blood pressure; promoting the synthesis of protein, DNA and RNA; regulating blood circulation, and enhancing immunity; has certain functions of stopping bleeding, removing blood stasis, regulating blood sugar, reducing blood fat and cholesterol, inhibiting arteriosclerosis and the like. During the production process of the pseudo-ginseng, the processes of sorting, cleaning, drying and sterilizing, superfine grinding, jet milling, mixing, packaging and the like are required, the superfine grinding process is an important part in the production of pseudo-ginseng powder, the grinding quality of the superfine grinding process influences the taste of the pseudo-ginseng powder, and the existing pseudo-ginseng grinding process only adopts one grinding mode, so that the grinding efficiency is low.

Disclosure of Invention

The invention aims to provide a superfine pseudo-ginseng powder production process based on an automatic feeding grinder, which adopts a mode of combining crushing and grinding to enhance the grinding efficiency and further improve the product quality.

In order to solve the technical problems, the invention adopts the following technical scheme:

a superfine radix Notoginseng powder production process based on an automatic feeding pulverizer comprises:

s1, selecting, namely cleaning the pseudo-ginseng raw medicinal material to be selected, and removing non-medicinal material parts and skin impurities;

s2, cleaning, and removing soil or impurities attached to the medicinal materials with drinking water;

s3: drying and sterilizing, namely drying and sterilizing the clean medicinal material pseudo-ginseng at the drying temperature of 70-75 ℃ until the water content is less than or equal to 10.0 percent, and sterilizing for 10-20 min until the ozone amount is 8-12 PPM;

s4, micronizing, namely micronizing the dried and sterilized panax notoginseng medicinal material, wherein the sorting frequency is 32HZ, and the yield range is 95.00-100.00%, so as to obtain medicinal material powder A1;

s5, performing jet milling, namely introducing the superfine pulverized medicinal materials into a jet milling device, performing separation at a frequency of 55HZ and a yield range of 97.00-100.00% to obtain medicinal material powder A2, and filling the medicinal material powder A2 into a container;

s6, mixing, namely uniformly mixing the A2 mixing equipment with stirring, wherein the yield is 99.50-100.00%, the mixing time is 25-35 min, medicinal material powder A3 is obtained, the medicinal material powder A3 is filled in a polyethylene plastic bag, and a material mark is attached;

s7, packaging, namely packaging the medicinal material powder A3 obtained in the step S6 by a packaging machine;

wherein: the grinding mode adopts a mode of combining the airflow grinding of an ultrafine grinder, the dried and sterilized pseudo-ginseng medicinal material is firstly guided into an ultrafine grinding mechanism for the first grinding, and the ground pseudo-ginseng powder is guided into an airflow grinding mechanism for the second grinding.

Further, in the step S1, the cleanliness of the panax notoginseng medicine material is up to no worm damage, no mildew, no impurities, no non-medicinal parts, and the panax notoginseng medicine material is weighed and recorded and placed into a container with a material identifier.

Further, in the step S2, the water for cleaning the medicinal materials should meet the national drinking water standard, and the water for cleaning is flowing water and is not reused.

Further, the thickness of the pseudo-ginseng medicinal material in the step S3 is not more than 4cm, and the dried medicinal material is put into a clean container with a mark.

Further, in the step S6, the packaging specification is 2 g/bag or 3 g/bag, and 10 bags of the test contents are randomly extracted every 15 minutes.

Further, the airflow crushing device is connected with the superfine crushing device through a pipeline, the airflow crushing device comprises a fixed table, a crushing bin and a screening bin, the crushing bin and the screening bin are arranged on the fixed table, and the crushing bin is connected with a feeding hole of the screening bin through a first material guide pipe; the screening bin is of a cylindrical cavity structure with openings at two ends, a material guide bin is arranged at the bottom of the screening bin, and the material guide bin is connected with a material collecting bin through a second material guide pipe; a screening plate is arranged in the screening bin and is connected with the inner wall of the screening bin through a vibration motor; the screening bin is provided with a discharge port, the lower part of the discharge port is provided with a storage box, the storage box is connected with the feeding bin through a third material guide pipe, and the feeding bin is connected with the crushing bin through a feeding pipe.

Further, broken storehouse bottom is provided with the vibrations screen cloth, and the sieve slope setting in the vibrations screen cloth, and vibrations screen cloth one end is connected with receipts material storehouse.

Further, be provided with a driving motor on the inlet pipe, and the inlet pipe is the spiral inlet pipe, is provided with the feeding storehouse on the inlet pipe.

Furthermore, an air guide pipe is arranged on the screening bin, and an air guide fan and a second driving motor connected with the air guide fan are arranged on the air guide pipe.

Furthermore, the material collecting bin is a cylindrical cavity body with one open end, a discharge port is arranged at the opening of the material collecting bin, a second conveying belt is arranged on the discharge port, and the second conveying belt is connected with the material collecting bin; and a third driving motor is arranged on the material collecting bin and is connected with a screw rod in the second material guide pipe.

Compared with the prior art, the invention has the following beneficial effects:

1. the medicinal materials are subjected to the processes of sorting, cleaning, drying, sterilizing and superfine grinding, so that soil and impurities on the medicinal materials are removed, and the quality of the medicinal materials is improved; the drying and sterilization can enhance the efficiency of the subsequent crushing.

2. Whole reducing mechanism combines to form by super little crushing apparatus and jet mill, can carry out jet mill once more with the material after the super little crushing, and smashes the storehouse and be connected with screening storehouse through first passage, screens the material after the jet mill to with unqualified material leading-in again smash in the storehouse, strengthen crushing effect, promote material quality.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a schematic view of the internal structure of the screening bin of the present invention.

In the figure: 1-a fixed table, 2-a storage box, 5-a third material guide pipe, 6-a feeding pipe, 7-a first driving motor, 8-a feeding bin, 9-a fourth driving motor, 10-a crushing bin, 12-a first material guide pipe, 13-a screening bin, 14-an air guide pipe, 15-a second driving motor, 16-a material collecting bin, 17-a material collecting bin, 18-a third driving motor, 19-a discharging port, 21-a screening plate and 22-a vibrating motor.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1:

a superfine pseudo-ginseng powder production process based on an automatic feeding grinder comprises the following steps:

s1, selecting, namely cleaning the pseudo-ginseng raw medicinal material to be selected, and removing non-medicinal material parts and skin impurities;

s2, cleaning, and removing soil or impurities attached to the medicinal materials with drinking water;

s3: drying and sterilizing, namely drying and sterilizing the clean medicinal material pseudo-ginseng at 70 ℃ until the water content is less than or equal to 10.0 percent, sterilizing for 10min and the ozone amount is 8 PPM;

s4, micronizing, namely micronizing the dried and sterilized panax notoginseng medicinal material, wherein the sorting frequency is 32HZ, and the yield range is 95.00 percent, so as to obtain medicinal material powder A1;

s5, performing jet milling, namely introducing the superfine pulverized medicinal materials into a jet milling device, sorting at a frequency of 55HZ and a yield range of 97.00% to obtain medicinal material powder A2, and filling the medicinal material powder A2 into a container;

s6, mixing, namely uniformly mixing the A2 mixing equipment with stirring, wherein the yield is 99.50%, the mixing time is 25min, medicinal material powder A3 is obtained, the medicinal material powder A3 is filled in a polyethylene plastic bag, and a material mark is attached;

s7, packaging, namely packaging the medicinal material powder A3 obtained in the step S6 by a packaging machine;

wherein: the grinding mode adopts a mode of combining the airflow grinding of an ultrafine grinder, the dried and sterilized pseudo-ginseng medicinal material is firstly guided into an ultrafine grinding mechanism for the first grinding, and the ground pseudo-ginseng powder is guided into an airflow grinding mechanism for the second grinding.

A superfine pseudo-ginseng powder production process based on an automatic feeding grinder is characterized in that: in the step S1, the cleanliness of the panax notoginseng medicinal material is up to no worm damage, no mildew, no impurities and no non-medicinal parts, and the panax notoginseng medicinal material is weighed and recorded and placed into a container with a material identifier; in the step S2, the medicinal material cleaning water meets the national drinking water standard, and the cleaning water is flowing water and is not reused; s3, the thickness of the pseudo-ginseng is not more than 4cm, and the dried pseudo-ginseng is put into a clean container with a mark; in the step S6, the packaging specification is 2 g/bag or 3 g/bag, and 10 bags are randomly extracted every 15 minutes to detect the packaging amount.

The jet milling device is connected with the superfine milling device through a pipeline, the jet milling device comprises a fixed table 1, a milling bin 10 and a screening bin 13, the milling bin 10 and the screening bin 13 are arranged on the fixed table 1, and the milling bin 10 is connected with a feed inlet of the screening bin 13 through a first material guide pipe 12; the screening bin 13 is a cylindrical cavity structure with two open ends, a material guide bin is arranged at the bottom of the screening bin 13, and the material guide bin is connected with a material collecting bin 17 through a second material guide pipe 16; a screening plate 21 is arranged in the screening bin 13, and the screening plate 21 is connected with the inner wall of the screening bin 13 through a vibration motor; a discharge port 19 is formed in the screening bin 13, a storage box 2 is arranged on the lower portion of the discharge port 19, the storage box 2 is connected with the feeding bin 8 through a third material guide pipe 5, and the feeding bin 8 is connected with the crushing bin 10 through a feeding pipe 6; a fourth driving motor 9 is arranged on the third material guiding pipe 5; whole reducing mechanism combines to form by super little crushing apparatus and jet mill, can carry out jet mill once more with the material after the super little crushing, and smashes the storehouse and be connected with screening storehouse through first passage, screens the material after the jet mill to with unqualified material leading-in again smash in the storehouse, strengthen crushing effect, promote material quality.

Be provided with a driving motor 7 on the inlet pipe 6, and inlet pipe 6 is the spiral inlet pipe, is provided with feeding storehouse 8 on the inlet pipe 6. The feeding pipe 6 is used for matching with the upper feeding bin 8 for feeding.

The screening bin 13 is provided with an air guide pipe 14, and the air guide pipe 14 is provided with an air guide fan and a second driving motor 15 connected with the air guide fan; the air guide pipe 14 can be matched with the second driving motor 15 to suck the materials in the crushing bin 10 into the screening bin 13 for vibration screening.

The material collecting bin 17 is a cylindrical cavity with an opening at one end, a discharge port is arranged at the opening of the material collecting bin 17, a second conveying belt 30 is arranged on the discharge port, and the second conveying belt 30 is connected with the material collecting bin; a third driving motor 18 is arranged on the material collecting bin 17, and the third driving motor 18 is connected with a screw rod in the second material guiding pipe 16; the material collecting bin 17 is used for guiding out the materials in the screening bin 13 by matching with the material guide pipe 16 and discharging materials by matching with a second conveying belt.

Example 2:

a superfine pseudo-ginseng powder production process based on an automatic feeding grinder comprises the following steps:

s1, selecting, namely cleaning the pseudo-ginseng raw medicinal material to be selected, and removing non-medicinal material parts and skin impurities;

s2, cleaning, and removing soil or impurities attached to the medicinal materials with drinking water;

s3: drying and sterilizing, namely drying and sterilizing the clean medicinal material pseudo-ginseng at the drying temperature of 72.5 ℃ until the water content is less than or equal to 10.0 percent, and sterilizing for 15min until the ozone amount is 10 PPM;

s4, micronizing, namely micronizing the dried and sterilized panax notoginseng medicinal material, wherein the sorting frequency is 32HZ, the yield range is 98%, and medicinal material powder A1 is obtained;

s5, performing jet milling, namely introducing the superfine pulverized medicinal materials into a jet milling device, sorting at a frequency of 55HZ and a yield range of 98% to obtain medicinal material powder A2, and filling the medicinal material powder A2 into a container;

s6, mixing, namely uniformly mixing the A2 mixing equipment with stirring, wherein the yield is 99.8%, the mixing time is 30min, medicinal material powder A3 is obtained, the medicinal material powder A3 is filled in a polyethylene plastic bag, and a material mark is attached;

s7, packaging, namely packaging the medicinal material powder A3 obtained in the step S6 by a packaging machine;

wherein: the grinding mode adopts a mode of combining the airflow grinding of an ultrafine grinder, the dried and sterilized pseudo-ginseng medicinal material is firstly guided into an ultrafine grinding mechanism for the first grinding, and the ground pseudo-ginseng powder is guided into an airflow grinding mechanism for the second grinding.

A superfine pseudo-ginseng powder production process based on an automatic feeding grinder is characterized in that: in the step S1, the cleanliness of the panax notoginseng medicinal material is up to no worm damage, no mildew, no impurities and no non-medicinal parts, and the panax notoginseng medicinal material is weighed and recorded and placed into a container with a material identifier; in the step S2, the medicinal material cleaning water meets the national drinking water standard, and the cleaning water is flowing water and is not reused; s3, the thickness of the pseudo-ginseng is not more than 4cm, and the dried pseudo-ginseng is put into a clean container with a mark; in the step S6, the packaging specification is 2 g/bag or 3 g/bag, and 10 bags are randomly extracted every 15 minutes to detect the packaging amount.

The jet milling device is connected with the superfine milling device through a pipeline, the jet milling device comprises a fixed table 1, a milling bin 10 and a screening bin 13, the milling bin 10 and the screening bin 13 are arranged on the fixed table 1, and the milling bin 10 is connected with a feed inlet of the screening bin 13 through a first material guide pipe 12; the screening bin 13 is a cylindrical cavity structure with two open ends, a material guide bin is arranged at the bottom of the screening bin 13, and the material guide bin is connected with a material collecting bin 17 through a second material guide pipe 16; a screening plate 21 is arranged in the screening bin 13, and the screening plate 21 is connected with the inner wall of the screening bin 13 through a vibration motor; a discharge port 19 is formed in the screening bin 13, a storage box 2 is arranged on the lower portion of the discharge port 19, the storage box 2 is connected with the feeding bin 8 through a third material guide pipe 5, and the feeding bin 8 is connected with the crushing bin 10 through a feeding pipe 6; a fourth driving motor 9 is arranged on the third material guiding pipe 5; whole reducing mechanism combines to form by super little crushing apparatus and jet mill, can carry out jet mill once more with the material after the super little crushing, and smashes the storehouse and be connected with screening storehouse through first passage, screens the material after the jet mill to with unqualified material leading-in again smash in the storehouse, strengthen crushing effect, promote material quality.

Be provided with a driving motor 7 on the inlet pipe 6, and inlet pipe 6 is the spiral inlet pipe, is provided with feeding storehouse 8 on the inlet pipe 6. The feeding pipe 6 is used for matching with the upper feeding bin 8 for feeding.

The screening bin 13 is provided with an air guide pipe 14, and the air guide pipe 14 is provided with an air guide fan and a second driving motor 15 connected with the air guide fan; the air guide pipe 14 can be matched with the second driving motor 15 to suck the materials in the crushing bin 10 into the screening bin 13 for vibration screening.

The material collecting bin 17 is a cylindrical cavity with an opening at one end, a discharge port is arranged at the opening of the material collecting bin 17, a second conveying belt 30 is arranged on the discharge port, and the second conveying belt 30 is connected with the material collecting bin; a third driving motor 18 is arranged on the material collecting bin 17, and the third driving motor 18 is connected with a screw rod in the second material guiding pipe 16; be provided with discharge gate 19 on the screening storehouse 13 and be used for unqualified material to derive, and be provided with in the storage case 2 and cooperate fourth driving motor 5 and send unqualified material back to feeding storehouse 8, carry out the regrinding, improve crushing efficiency.

Example 3:

a superfine pseudo-ginseng powder production process based on an automatic feeding grinder comprises the following steps:

s1, selecting, namely cleaning the pseudo-ginseng raw medicinal material to be selected, and removing non-medicinal material parts and skin impurities;

s2, cleaning, and removing soil or impurities attached to the medicinal materials with drinking water;

s3: drying and sterilizing, namely drying and sterilizing the clean medicinal material pseudo-ginseng at 75 ℃ until the water content is less than or equal to 10.0 percent, sterilizing for 20min and the ozone amount is 12 PPM;

s4, micronizing, namely micronizing the dried and sterilized panax notoginseng medicinal material, wherein the sorting frequency is 32HZ, and the yield range is 100.00%, so as to obtain medicinal material powder A1;

s5, performing jet milling, namely introducing the superfine pulverized medicinal materials into a jet milling device, sorting at a frequency of 55HZ and a yield range of 100.00% to obtain medicinal material powder A2, and filling the medicinal material powder A2 into a container;

s6, mixing, namely uniformly mixing the A2 mixing equipment with stirring, wherein the yield is 100.00 percent, the mixing time is 35min, medicinal material powder A3 is obtained, the medicinal material powder A3 is filled in a polyethylene plastic bag, and a material mark is attached;

s7, packaging, namely packaging the medicinal material powder A3 obtained in the step S6 by a packaging machine;

wherein: the grinding mode adopts a mode of combining the airflow grinding of an ultrafine grinder, the dried and sterilized pseudo-ginseng medicinal material is firstly guided into an ultrafine grinding mechanism for the first grinding, and the ground pseudo-ginseng powder is guided into an airflow grinding mechanism for the second grinding.

A superfine pseudo-ginseng powder production process based on an automatic feeding grinder is characterized in that: in the step S1, the cleanliness of the panax notoginseng medicinal material is up to no worm damage, no mildew, no impurities and no non-medicinal parts, and the panax notoginseng medicinal material is weighed and recorded and placed into a container with a material identifier; in the step S2, the medicinal material cleaning water meets the national drinking water standard, and the cleaning water is flowing water and is not reused; s3, the thickness of the pseudo-ginseng is not more than 4cm, and the dried pseudo-ginseng is put into a clean container with a mark; in the step S6, the packaging specification is 2 g/bag or 3 g/bag, and 10 bags are randomly extracted every 15 minutes to detect the packaging amount.

The jet milling device is connected with the superfine milling device through a pipeline, the jet milling device comprises a fixed table 1, a milling bin 10 and a screening bin 13, the milling bin 10 and the screening bin 13 are arranged on the fixed table 1, and the milling bin 10 is connected with a feed inlet of the screening bin 13 through a first material guide pipe 12; the screening bin 13 is a cylindrical cavity structure with two open ends, a material guide bin is arranged at the bottom of the screening bin 13, and the material guide bin is connected with a material collecting bin 17 through a second material guide pipe 16; a screening plate 21 is arranged in the screening bin 13, and the screening plate 21 is connected with the inner wall of the screening bin 13 through a vibration motor; a discharge port 19 is formed in the screening bin 13, a storage box 2 is arranged on the lower portion of the discharge port 19, the storage box 2 is connected with the feeding bin 8 through a third material guide pipe 5, and the feeding bin 8 is connected with the crushing bin 10 through a feeding pipe 6; a fourth driving motor 9 is arranged on the third material guiding pipe 5; whole reducing mechanism combines to form by super little crushing apparatus and jet mill, can carry out jet mill once more with the material after the super little crushing, and smashes the storehouse and be connected with screening storehouse through first passage, screens the material after the jet mill to with unqualified material leading-in again smash in the storehouse, strengthen crushing effect, promote material quality.

Be provided with a driving motor 7 on the inlet pipe 6, and inlet pipe 6 is the spiral inlet pipe, is provided with feeding storehouse 8 on the inlet pipe 6. The feeding pipe 6 is used for matching with the upper feeding bin 8 for feeding.

The screening bin 13 is provided with an air guide pipe 14, and the air guide pipe 14 is provided with an air guide fan and a second driving motor 15 connected with the air guide fan; the air guide pipe 14 can be matched with the second driving motor 15 to suck the materials in the crushing bin 10 into the screening bin 13 for vibration screening.

The material collecting bin 17 is a cylindrical cavity with an opening at one end, a discharge port is arranged at the opening of the material collecting bin 17, a second conveying belt 30 is arranged on the discharge port, and the second conveying belt 30 is connected with the material collecting bin; a third driving motor 18 is arranged on the material collecting bin 17, and the third driving motor 18 is connected with a screw rod in the second material guiding pipe 16; the material collecting bin 17 is used for guiding out materials in the screening bin 13 by matching with the material guide pipe 16 and discharging materials by matching with a second conveying belt; the side wall of the crushing bin 10 is provided with a plurality of air pipes, and the air pipes are connected with the air guide ring at the lower part.

Reference throughout this specification to "one embodiment," "another embodiment," "an embodiment," "a preferred embodiment," or the like, means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment described generally in this application. The appearances of the same phrase in various places in the specification are not necessarily all referring to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with any embodiment, it is submitted that it is within the scope of the invention to effect such feature, structure, or characteristic in connection with other embodiments.

Although the invention has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this disclosure. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (10)

1. A production process of superfine pseudo-ginseng powder based on an automatic feeding grinder is characterized by comprising the following steps:

s1, selecting, namely cleaning the pseudo-ginseng raw medicinal material to be selected, and removing non-medicinal material parts and skin impurities;

s2, cleaning, and removing soil or impurities attached to the medicinal materials with drinking water;

s3: drying and sterilizing, namely drying and sterilizing the clean medicinal material pseudo-ginseng at the drying temperature of 70-75 ℃ until the water content is less than or equal to 10.0 percent, and sterilizing for 10-20 min until the ozone amount is 8-12 PPM;

s4, micronizing, namely micronizing the dried and sterilized panax notoginseng medicinal material, wherein the sorting frequency is 32HZ, and the yield range is 95.00-100.00%, so as to obtain medicinal material powder A1;

s5, performing jet milling, namely introducing the superfine pulverized medicinal materials into a jet milling device, performing separation at a frequency of 55HZ and a yield range of 97.00-100.00% to obtain medicinal material powder A2, and filling the medicinal material powder A2 into a container;

s6, mixing, namely uniformly mixing the A2 mixing equipment with stirring, wherein the yield is 99.50-100.00%, the mixing time is 25-35 min, medicinal material powder A3 is obtained, the medicinal material powder A3 is filled in a polyethylene plastic bag, and a material mark is attached;

s7, packaging, namely packaging the medicinal material powder A3 obtained in the step S6 by a packaging machine;

wherein: the grinding mode adopts a mode of combining the airflow grinding of an ultrafine grinder, the dried and sterilized pseudo-ginseng medicinal material is firstly guided into an ultrafine grinding mechanism for the first grinding, and the ground pseudo-ginseng powder is guided into an airflow grinding mechanism for the second grinding.

2. The production process of the superfine pseudo-ginseng powder based on the automatic feeding grinder as claimed in claim 1, wherein the production process comprises the following steps: and in the step S1, the cleanliness of the panax notoginseng medicinal material is up to no worm damage, no mildew, no impurities and no non-medicinal parts, and the panax notoginseng medicinal material is weighed and recorded and placed into a container with a material identifier.

3. The production process of the superfine pseudo-ginseng powder based on the automatic feeding grinder as claimed in claim 1, wherein the production process comprises the following steps: in the step S2, the medicinal material cleaning water meets the national drinking water standard, and the cleaning water is flowing water and is not reused.

4. The production process of the superfine pseudo-ginseng powder based on the automatic feeding grinder as claimed in claim 1, wherein the production process comprises the following steps: and in the step S3, the thickness of the pseudo-ginseng medicinal material is not more than 4cm, and the dried medicinal material is put into a clean container with a mark.

5. The production process of the superfine pseudo-ginseng powder based on the automatic feeding grinder as claimed in claim 1, wherein the production process comprises the following steps: and in the step S6, the packaging specification is 2 g/bag or 3 g/bag, and 10 bags are randomly extracted every 15 minutes to detect the packaging amount.

6. The process for producing ultrafine notoginseng powder based on the automatic feed grinder as claimed in claim 1, wherein the jet mill is connected to the ultrafine grinding device through a pipe, and the process comprises the following steps: the jet milling device comprises a fixed table (1), a milling bin (10) and a screening bin (13), wherein the milling bin (10) and the screening bin (13) are arranged on the fixed table (1), and the milling bin (10) is connected with a feeding hole of the screening bin (13) through a first material guide pipe (12); the screening bin (13) is of a cylindrical cavity structure with openings at two ends, a material guide bin is arranged at the bottom of the screening bin (13), and the material guide bin is connected with a material collecting bin (17) through a second material guide pipe (16); a screening plate (21) is arranged in the screening bin (13), and the screening plate (21) is connected with the inner wall of the screening bin (13) through a vibration motor (22); the screening bin (13) is provided with a discharge port (19), the lower part of the discharge port (19) is provided with a storage box (2), the storage box (2) is connected with a feeding bin (8) through a third material guide pipe (5), and the feeding bin (8) is connected with a crushing bin (10) through a feeding pipe (6).

7. The production process of the superfine pseudo-ginseng powder based on the automatic feeding grinder as claimed in claim 6, wherein the production process comprises the following steps: and a fourth driving motor (9) is arranged on the third material guide pipe (5).

8. The production process of the superfine pseudo-ginseng powder based on the automatic feeding grinder as claimed in claim 6, wherein the production process comprises the following steps: be provided with first driving motor (7) on inlet pipe (6), and inlet pipe (6) are the spiral inlet pipe, are provided with feeding storehouse (8) on inlet pipe (6).

9. The production process of the superfine pseudo-ginseng powder based on the automatic feeding grinder as claimed in claim 6, wherein the production process comprises the following steps: an air guide pipe (14) is arranged on the screening bin (13), and an air guide fan and a second driving motor (15) connected with the air guide fan are arranged on the air guide pipe (14).

10. The production process of the superfine pseudo-ginseng powder based on the automatic feeding grinder as claimed in claim 6, wherein the production process comprises the following steps: the collecting bin (17) is a cylindrical cavity body with one open end, a discharge port is arranged at the opening of the collecting bin (17), a second conveying belt (30) is arranged on the discharge port, and the second conveying belt (30) is connected with the collecting bin; a third driving motor (18) is arranged on the material collecting bin (17), and the third driving motor (18) is connected with a screw rod in the second material guiding pipe (16).

Images